microbiology revision

Question 1

complement system leads to

Answer 1

phagocytosis of c3b coated bacteria
inflammation
lysis of microbe

Question 2

stages of sample processing bacteriology

Answer 2

sample
plate onto enrichment media
pick off colonies
plate onto selective/differential agars
pick off colonies
gram stain
definitive ID

Question 3

catalase test

Answer 3

positive for staphylococcus
negative for streptococcus

Question 4

following a positive catalase test which test would you do

Answer 4

coagulase

Question 5

coagulase test

Answer 5

positive staph aureus

Question 6

following negative coagulase test which test

Answer 6

novobiocin sensitivity

Question 7

positive novobiocin test

Answer 7

staph epidermis

Question 8

negative novobiocin test

Answer 8

staph saprophyticus

Question 9

following negative catalase test which test

Answer 9

hemolysis

Question 10

testing for strep pneumoniae

Answer 10

negative catalase
alpha hemolysis positive

Question 11

testing for s pyogenes

Answer 11

negative catalase
beta hemolysis positive

Question 12

testing for s agalactiae

Answer 12

negative catalase
beta hemolysis negative

Question 13

why do we want to identify pathogens

Answer 13

improved treatment and outcomes
more appropriate use of antibiotics
managing outbreaks

Question 14

what are many class 3 reactions for

Answer 14

selective toxicity

Question 15

antibacterial drug for cell wall synthesis

Answer 15

cephalosporins

Question 16

antibacterial drug for cell wall integrity

Answer 16

beta lactamases

Question 17

antibacterial drug for DNA synthesis

Answer 17

metronidazole

Question 18

antibacterial drug for DNA gyros

Answer 18

quinolones

Question 19

antibacterial drug for RNA polymerase

Answer 19

rifampicin

Question 20

antibacterial drug for phospholipid membrane

Answer 20

polymyxins

Question 21

antibacterial drug for protein synthesis, 30S inhibitors

Answer 21

tetracyclins

Question 22

antibacterial drug for protein synthesis, 50S inhibitors

Answer 22

clindamycin

Question 23

drugs that may overcome resistance

Answer 23

co amoxiclav

Question 24

antiviral drugs targeting attachment and entry inhibitors

Answer 24

maraviroc

Question 25

antiviral drugs targeting ion channel blockers

Answer 25

rimantadine

Question 26

antiviral drugs targeting polymerase inhibitors

Answer 26

acyclovir

Question 27

antiviral drugs targeting integrase inhibitors

Answer 27

raltegravir

Question 28

antiviral drugs targeting protease inhibitors

Answer 28

ritonavir

Question 29

antiviral drugs targeting neuraminidase inhibitors

Answer 29

oseltamivir

Question 30

infectious disease control

Answer 30

environment
behaviour change
antimicrobial agents
vaccination
public health awareness
surveillance
infection control measures

Question 31

factors in viral pathogenesis

Answer 31

effects of viral infection on cells
entry into host
course of infection
cell tropism
cell damage
host immune response
virus clearance or persistence

Question 32

how can cells respond to viral infections

Answer 32

no change
death
transformation

Question 33

direct cell damage from viral infection may result from

Answer 33

diversion of cells energy
shut off of cell macromolecular synthesis
competition of viral mRNA for cellular ribosomes
competition of viral promotors and transcriptional nhances

Question 34

indirect cell damage can result from

Answer 34

integration of viral genome
induction of mutations in host genome
inflammation
host immune response

Question 35

COVID-19 replication

Answer 35

spike protein binds to ACE2 receptors
TMPRSS2 and cathepsin cleaves S glycoprotein
enables cell membrane viral fusion and viral RNA release
may create a pore so viral RNA can enter
or may be internalised by endocytosis and uncoated in lysosomal environment
which would release ssRNA into cytosol
viral genome replicated and translated into viral proteins
envelope glycoproteins and process in Golgi
released by vesicular exocytosis

Question 36

what is the influenza a virus

Answer 36

enveloped
negative sense
ssRNA

Question 37

influenza viral replication

Answer 37

virus adsorbs to respiratory epithelium by hem agglutinin spikes
fuses with the membrane
virus is endocytose into vacuole
releases 8 nucleocapsid segments into cytoplasm
nucleocapsids transported to nucleus
negative sense ran is transcribed t positive sense
translated into viral proteins
positive sense rna synthesises glycoprotein spikes inserted into the host membrane
positive sense rna synthesises new negative sense, assembled into nucleocapsids
transported out of nucleus to cell membrane
release of mature virus, budded off with spiked envelope

Question 38

how would strep pyogenes be identified in the lab

Answer 38

sputum sample taken
cultured on general medium, blood agar
look for beta haemolytic colonies
pick off colonies
make smear on slide
gram stain
look for gram positive cocci chains
definitive ID based on API or MALDI

Question 39

alpha hemolysis

Answer 39

partial hemolysis
green

Question 40

beta hemolysis

Answer 40

complete hemoylsis
clear